////////////////////////////////////////////////////////////////////////
//
// Copyright (C) 2016-2021 The Octave Project Developers
//
// See the file COPYRIGHT.md in the top-level directory of this
// distribution or <https://octave.org/copyright/>.
//
// This file is part of Octave.
//
// Octave is free software: you can redistribute it and/or modify it
// under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// Octave is distributed in the hope that it will be useful, but
// WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
// GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License
// along with Octave; see the file COPYING.  If not, see
// <https://www.gnu.org/licenses/>.
//
////////////////////////////////////////////////////////////////////////

#if defined (HAVE_CONFIG_H)
#  include "config.h"
#endif

#include <QCheckBox>
#include <QComboBox>
#include <QEvent>
#include <QFrame>
#include <QHBoxLayout>
#include <QHeaderView>
#include <QLabel>
#include <QLineEdit>
#include <QModelIndexList>
#include <QMouseEvent>
#include <QString>
#include <QStringList>
#include <QTableWidget>
#include <QTableWidgetItem>
#include <QTimer>

#include "Container.h"
#include "ContextMenu.h"
#include "Table.h"
#include "QtHandlesUtils.h"

#include "octave-qobject.h"

#include "graphics.h"
#include "interpreter.h"
#include "oct-map.h"
#include "oct-stream.h"
#include "oct-string.h"
#include "oct-strstrm.h"

namespace octave
{

  static const int AUTO_WIDTH = 75;

#define AUTO_HEIGHT (tp.get_fontsize () * 2 - 1)

  static QSize realQSizeForTable (QTableWidget *t)
  {
    int w = t->verticalHeader ()->width () + 4;
    for (int i = 0; i < t->columnCount (); i++)
      w += t->columnWidth (i);
    int h = t->horizontalHeader ()->height () + 4;
    for (int i = 0; i < t->rowCount (); i++)
      h += t->rowHeight (i);
    return QSize (w, h);
  }

#define FORMATNUMBER(type)                                                    \
  static QString formatNumber (type d,                                        \
                               char format = 'f',                             \
                               int precision = 4)                             \
  {                                                                           \
    type ten = 10;                                                            \
    if (format == 'n')                                                        \
      {                                                                       \
        if (d == floor (d))                                                   \
          return QString::number (d, 'g', precision);                         \
        else if (d <= pow (ten, precision - 1)                                \
                 && d > pow (ten, 1 - precision))                             \
          return QString::number (d, 'f', precision);                         \
        else                                                                  \
          return QString::number (d, 'e', precision);                         \
      }                                                                       \
    else if (format == 'F')                                                   \
      {                                                                       \
        int exponent = floor (log10 (d) / 3) * 3;                             \
        d *= pow (ten, -exponent);                                            \
        return QString::number (d, 'f', precision) + "e" +                    \
          (exponent < 0 ? "-" : "+") +                                        \
          QString ("%1").arg (abs (exponent), 3, 10, QChar ('0'));            \
      }                                                                       \
    else if (format == 'E')                                                   \
      {                                                                       \
        int exponent = floor (log10 (d) / 3) * 3;                             \
        d *=  pow (ten, -exponent);                                           \
        return QString::number (d,                                            \
                                'f',                                          \
                                precision - floor (log10 (d)) - 1) +          \
               "e" + (exponent < 0 ? "-" : "+") +                             \
               QString ("%1").arg (abs (exponent), 3, 10, QChar ('0'));       \
      }                                                                       \
    else                                                                      \
      return QString::number (d, format, precision);                          \
  }

  FORMATNUMBER(double)
  FORMATNUMBER(float)

#undef FORMATNUMBER

  static QString formatComplex (Complex c, char format = 'f', int precision = 4)
  {
    return formatNumber (c.real (), format, precision) + " + "
           + formatNumber (c.imag (), format, precision) + "i";
  }

#define FORMAT_VALUE_EXCEPT_RAT(f,l)                      \
  if (format == "numeric" || format == "short")           \
    text = formatNumber (value, 'n', f);                  \
  else if (format == "short f" || format == "shortf")     \
    text = formatNumber (value, 'f', f);                  \
  else if (format == "short e" || format == "shorte")     \
    text = formatNumber (value, 'e', f);                  \
  else if (format == "short eng" || format == "shorteng") \
    text = formatNumber (value, 'F', f);                  \
  else if (format == "short g" || format == "shortg")     \
    text = formatNumber (value, 'g', f + 1);              \
  else if (format == "long")                              \
    text = formatNumber (value, 'n', l);                  \
  else if (format == "long f" || format == "longf")       \
    text = formatNumber (value, 'f', l);                  \
  else if (format == "long e" || format == "longe")       \
    text = formatNumber (value, 'e', l);                  \
  else if (format == "long eng" || format == "longeng")   \
    text = formatNumber (value, 'E', l);                  \
  else if (format == "long g" || format == "longg")       \
    text = formatNumber (value, 'g', l + 1);              \
  else if (format == "bank")                              \
    text = QString::number (value, 'f', 2);               \
  else if (format == "+")                                 \
    if (value > 0)                                        \
      text = Utils::fromStdString ("+");                  \
    else if (value < 0)                                   \
      text = Utils::fromStdString ("-");                  \
    else                                                  \
      text = Utils::fromStdString ("");

#define FORMAT_VALUE(f,l)                                               \
  FORMAT_VALUE_EXCEPT_RAT(f,l)                                          \
  else if (format == "rat")                                             \
    text = Utils::fromStdString (rational_approx (double (value), 0));  \
  else                                                                  \
    {                                                                   \
      text = formatNumber (value, 'n', f);                              \
      flag = Qt::AlignLeft ;                                            \
    }

#define FORMAT_UINT_VALUE()                    \
  text = QString::number (value);              \
  if (format == "char"  || format == "popup")  \
    flag = Qt::AlignLeft;                      \
  else if (format == "+")                      \
    {                                          \
      if (value > 0)                           \
        text = Utils::fromStdString ("+");     \
      else                                     \
        text = Utils::fromStdString ("");      \
    }

#define FORMAT_INT_VALUE()                     \
  text = QString::number (value);              \
  if (format == "char" || format == "popup")   \
    flag = Qt::AlignLeft ;                     \
  else if (format == "+")                      \
    {                                          \
      if (value > 0)                           \
        text = Utils::fromStdString ("+");     \
      else if (value < 0)                      \
        text = Utils::fromStdString ("-");     \
      else                                     \
        text = Utils::fromStdString ("");      \
    }

  static std::pair<Qt::AlignmentFlag, QString>
  qStringValueFor (octave_value val, std::string format = "")
  {
    Qt::AlignmentFlag flag = Qt::AlignRight;
    QString text;
    if (val.is_string ())
      {
        text = octave::Utils::fromStdString (val.string_value ());
        flag = Qt::AlignLeft ;
      }
    else if (val.iscomplex ())
      {
        // Matlab has multiple complex types, we only have double.
        Complex c = val.complex_value ();
        if (format == "short")
          text = formatComplex (c, 'f', 4);
        else if (format == "short e" || format == "shorte")
          text = formatComplex (c, 'e', 4);
        else if (format == "short eng" || format == "shorteng")
          text = formatComplex (c, 'E', 4);
        else if (format == "short g" || format == "shortg")
          text = formatComplex (c, 'g', 5);
        else if (format == "long")
          text = formatComplex (c, 'f', 15);
        else if (format == "long e" || format == "longe")
          text = formatComplex (c, 'e', 15);
        else if (format == "long eng" || format == "longeng")
          text = formatComplex (c, 'E', 15);
        else if (format == "long g" || format == "longg")
          text = formatComplex (c, 'g', 16);
        else if (format == "bank")
          text = QString::number (c.real (), 'f', 2);
        else if (format == "+")
          {
            if (c.real () > 0)
              text = Utils::fromStdString ("+");
            else if (c.real () < 0)
              text = Utils::fromStdString ("-");
            else
              text = Utils::fromStdString ("");
          }
        else if (format == "rat")
          text = Utils::fromStdString (rational_approx (c.real (), 0)) + " + "
                 + Utils::fromStdString (rational_approx (c.imag (), 0)) + "i";
        else if (format == "numeric")
          text = QString::number (c.real (), 'g', 5) + " + "
                 + QString::number (c.imag (), 'g', 5) + "i";
        else
          {
            text = QString::number (c.real (), 'g', 5) + " + "
                   + QString::number (c.imag (), 'g', 5) + "i";
            flag = Qt::AlignLeft ;
          }
      }
    else if (val.is_double_type () )
      {
        double value = val.double_value ();
        FORMAT_VALUE(4, 15)
      }
    else if (val.is_single_type ())
      {
        float value = val.float_value ();
        FORMAT_VALUE(4, 7)
      }
    else if (val.is_int8_type ())
      {
        short int value = val.short_value ();
        FORMAT_INT_VALUE()
      }
    else if (val.is_uint8_type ())
      {
        unsigned short int value = val.ushort_value ();
        FORMAT_UINT_VALUE()
      }
    else if (val.is_int16_type ())
      {
        int value = val.int_value ();
        FORMAT_INT_VALUE()
      }
    else if (val.is_uint16_type ())
      {
        unsigned int value = val.uint_value ();
        FORMAT_UINT_VALUE()
      }
    else if (val.is_int32_type ())
      {
        long int value = val.long_value ();
        FORMAT_INT_VALUE()
      }
    else if (val.is_uint32_type ())
      {
        unsigned long int value = val.ulong_value ();
        FORMAT_UINT_VALUE()
      }
    else if (val.is_int64_type ())
      {
        int64_t value = val.int64_value ();
        FORMAT_INT_VALUE()
      }
    else if (val.is_uint64_type ())
      {
        uint64_t value = val.uint64_value ();
        FORMAT_UINT_VALUE()
      }
    else if (val.islogical ())
      {
        bool b = val.bool_value ();
        if (format == "char" || format == "popup" || format == "")
          {
            text = Utils::fromStdString (b ? "true" : "false");
            flag = Qt::AlignLeft ;
          }
        else if (format == "+")
          {
            text = Utils::fromStdString (b ? "+" : "");
            flag = Qt::AlignLeft ;
          }
        else
          text = Utils::fromStdString (b ? "1" : "0");
      }
    else
      {
        std::stringstream warn_string;
        warn_string << "Unknown conversion for datatype " << val.class_name ()
                    << " to " << format
                    << " for value " << val.string_value (true);
        warning ("%s", warn_string.str ().c_str ());

        text = Utils::fromStdString (val.string_value (true));
      }

    return std::make_pair (flag, text);
  }

#undef FORMAT_VALUE
#undef FORMAT_VALUE_EXCEPT_RAT
#undef FORMAT_UINT_VALUE
#undef FORMAT_INT_VALUE

  static QTableWidgetItem * itemFor (octave_value val, std::string format = "",
                                     bool enabled = false)
  {
    QTableWidgetItem *retval = new QTableWidgetItem ();
    std::pair<Qt::AlignmentFlag, QString> flag_and_text =
      qStringValueFor (val, format);
    retval->setTextAlignment (flag_and_text.first);
    retval->setText (flag_and_text.second);

    if (enabled)
      retval->setFlags (retval->flags () | Qt::ItemIsEditable);
    else
      retval->setFlags (retval->flags () & ~Qt::ItemIsEditable);

    return retval;
  }

  static octave_value
  attempt_type_conversion (const octave_value& ov,
                           const octave_value& old_value)
  {
    octave_value retval;

    // Define a macro to help with the conversion of strings to integers
    // FIXME: these will happily integer overflow in the (u)int64 case
    // - this probably doesn't matter.
#define SCANF_AND_CONVERT(name,ctype,format)           \
  else if (old_value.is_ ## name ## _type ())          \
    {                                                  \
      ctype val;                                       \
      int n;                                           \
      const std::string cxx_str = ov.string_value ();  \
      const char *c_str = cxx_str.c_str ();            \
      int error = sscanf (c_str, format, &val, &n);    \
      if (error != 1 || c_str[n])                      \
        {                                              \
          val = 0;                                     \
        }                                              \
      retval = octave_value ( octave_ ## name (val));  \
    }

    if (old_value.is_string ())
      retval = ov;
    SCANF_AND_CONVERT(int8, int64_t, "%" PRId64 " %n")
    SCANF_AND_CONVERT(uint8, uint64_t, "%" PRIu64 " %n")
    SCANF_AND_CONVERT(int16, int64_t, "%" PRId64 " %n")
    SCANF_AND_CONVERT(uint16, uint64_t, "%" PRIu64 " %n")
    SCANF_AND_CONVERT(int32, int64_t, "%" PRId64 " %n")
    SCANF_AND_CONVERT(uint32, uint64_t, "%" PRIu64 " %n")
    SCANF_AND_CONVERT(int64, int64_t, "%" PRId64 " %n")
    SCANF_AND_CONVERT(uint64, uint64_t, "%" PRIu64 " %n")

#undef SCANF_AND_CONVERT

    else if (old_value.isnumeric () && ! old_value.isinteger ())
      {
        // Basically need to do str2double
        Complex complex = octave::string::str2double (ov.string_value ());
        if (old_value.is_single_type ())
          retval = octave_value (FloatComplex (complex));
        else
          retval = octave_value (complex);
      }
    else if (old_value.islogical ())
      {
        // Right: Matlab basically needs this to be true or false, we should
        // accept 1 too.
        if (ov.string_value ()  == "true" || ov.string_value () == "1")
          retval = octave_value (true);
        else
          retval = octave_value (false);
      }
    else
      retval = octave_value (octave::string::str2double (ov.string_value ()));
    return retval;
  }

  QWidget *
  Table::checkBoxForLogical (octave_value val, bool enabled = false)
  {
    QWidget *retval = new QWidget (m_tableWidget);
    QCheckBox *checkBox = new QCheckBox ();
    QHBoxLayout *layout = new QHBoxLayout (retval);
    layout->addWidget (checkBox);
    layout->setAlignment (Qt::AlignCenter);
    layout->setContentsMargins (0, 0, 0, 0);
    retval->setLayout (layout);

    if ((val.islogical () || val.is_bool_scalar ()) && val.bool_value ())
      checkBox->setCheckState (Qt::Checked);
    else
      checkBox->setCheckState (Qt::Unchecked);

    checkBox->setAttribute (Qt::WA_TransparentForMouseEvents, true);
    checkBox->setFocusPolicy (Qt::NoFocus);
    checkBox->setProperty ("Enabled", QVariant (enabled));

    return retval;
  }

  Table*
  Table::create (octave::base_qobject& oct_qobj, octave::interpreter& interp,
                 const graphics_object& go)
  {
    Object *parent = parentObject (interp, go);

    if (parent)
      {
        Container *container = parent->innerContainer ();

        if (container)
          return new Table (oct_qobj, interp, go, new QTableWidget (container));
      }

    return 0;
  }

  Table::Table (octave::base_qobject& oct_qobj, octave::interpreter& interp,
                const graphics_object& go, QTableWidget *tableWidget)
    : Object (oct_qobj, interp, go, tableWidget), m_tableWidget (tableWidget),
      m_curData (), m_blockUpdates (false)
  {
    qObject ()->setObjectName ("UItable");
    uitable::properties& tp = properties<uitable> ();

    m_curData = octave_value (tp.get_data ());
    Matrix bb = tp.get_boundingbox (false);
    m_tableWidget->setObjectName ("UITable");
    m_tableWidget->setAutoFillBackground (true);
    m_tableWidget->setGeometry (octave::math::round (bb(0)),
                                octave::math::round (bb(1)),
                                octave::math::round (bb(2)),
                                octave::math::round (bb(3)));
    m_tableWidget->setFont (Utils::computeFont<uitable> (tp)) ;
    m_tableWidget->setSelectionBehavior (QAbstractItemView::SelectItems);
    updatePalette ();
    m_keyPressHandlerDefined = ! tp.get_keypressfcn ().isempty ();
    m_keyReleaseHandlerDefined = ! tp.get_keyreleasefcn ().isempty ();
    updateData ();
    updateRowname ();
    updateColumnname ();
    updateColumnwidth ();
    updateEnable ();  // Also does rearrangeableColumns
    m_tableWidget->setToolTip (Utils::fromStdString (tp.get_tooltipstring ()));
    m_tableWidget->setVisible (tp.is_visible ());
    updateExtent ();
    m_tableWidget->installEventFilter (this);


    connect (m_tableWidget, &QTableWidget::itemChanged,
             this, &Table::itemChanged);
    connect (m_tableWidget, &QTableWidget::cellClicked,
             this, &Table::cellClicked);
    connect (m_tableWidget, &QTableWidget::itemSelectionChanged,
             this, &Table::itemSelectionChanged);
  }

  Table::~Table (void) { }

  void
  Table::itemSelectionChanged ()
  {
    if (! (properties<uitable> ().get_cellselectioncallback ().isempty ()))
      {
        QModelIndexList modelIndexList =
          m_tableWidget->selectionModel ()->selectedIndexes ();
        int length = modelIndexList.size ();
        Matrix indices = Matrix (length, 2);
        for (int i = 0; i < length; i++)
          {
            indices(i, 0) = modelIndexList.value (i).row () + 1;
            indices(i, 1) = modelIndexList.value (i).column () + 1;
          }
        octave_scalar_map eventData;
        eventData.setfield ("Indices", indices);
        octave_value cellSelectionCallbackEventObject (eventData);
        emit gh_callback_event (m_handle, "cellselectioncallback",
                                cellSelectionCallbackEventObject);
      }
  }

  void
  Table::cellClicked (int row, int col)
  {
    QCheckBox *checkBox = nullptr;
    QWidget *widget
      = qobject_cast<QWidget *> (m_tableWidget->cellWidget (row, col));
    if (widget && ! widget->children ().isEmpty ())
      {
        QHBoxLayout *layout
          = qobject_cast<QHBoxLayout *> (widget->children ().first ());

        if (layout && layout->count () > 0)
          checkBox = qobject_cast<QCheckBox *> (layout->itemAt (0)-> widget ());
      }

    if (checkBox && checkBox->property ("Enabled").toBool ())
      checkBoxClicked (row, col, checkBox);
  }

  void
  Table::sendCellEditCallback (int row,
                               int col,
                               octave_value old_value,
                               octave_value new_value,
                               octave_value edit_data,
                               octave_value error)
  {

    if (!(properties<uitable> ().get_celleditcallback ().isempty ()))
      {
        Matrix indices = Matrix (1, 2);
        indices(0, 0) = row + 1;
        indices(0, 1) = col + 1;

        octave_scalar_map eventData;
        eventData.setfield ("Indices", indices);
        eventData.setfield ("PreviousData", old_value);
        eventData.setfield ("NewData", new_value);
        eventData.setfield ("EditData", edit_data);
        eventData.setfield ("Error", error);

        octave_value cellEditCallbackEventObject (eventData);

        emit gh_callback_event (m_handle, "celleditcallback",
                                cellEditCallbackEventObject);
      }
    else if (error.string_value ().length () > 0)
      warning ("%s", error.string_value ().c_str ());
  }

  void
  Table::comboBoxCurrentIndexChanged (const QString& value)
  {
    if (m_blockUpdates)
      return;

    m_blockUpdates = true;

    gh_manager& gh_mgr = m_interpreter.get_gh_manager ();

    octave::autolock guard (gh_mgr.graphics_lock ());

    octave_value data = octave_value (m_curData);
    bool ok = false;

    QComboBox *comboBox = qobject_cast<QComboBox *> (sender ());
    int row = comboBox->property ("row").toInt ();
    int col = comboBox->property ("col").toInt ();

    octave_value edit_data = octave_value (Utils::toStdString (value));

    if (row < data.rows () && col < data.columns ())
      {
        if (data.iscell ())
          {
            Cell cell = data.cell_value ();
            octave_value old_data = cell(row, col);
            if (cell(row, col).is_string ())
              {
                cell(row, col) = edit_data;
                if (edit_data.string_value () != old_data.string_value ())
                  {
                    m_curData = octave_value (cell);
                    emit gh_set_event (m_handle, "data", octave_value (cell),
                                       false);
                  }

                octave_value error = octave_value ("");
                sendCellEditCallback (row, col,
                                      old_data,
                                      edit_data,
                                      edit_data,
                                      error);
                ok = true;
              }
            else
              {
                cell(row, col) = attempt_type_conversion (edit_data, old_data);

                // Inform the QTableWidget of our change
                updateData (row, col, cell(row, col),
                            columnformat (col), columneditable (col));

                m_curData = octave_value (cell);
                emit gh_set_event (m_handle, "data", octave_value (cell),
                                   false);

                octave_value error = octave_value ("");
                sendCellEditCallback (row,
                                      col,
                                      old_data,
                                      cell(row, col),
                                      edit_data,
                                      error);
                ok = true;
              }
          }
        else
          {
            octave_value old_data = data.is_matrix_type ()
                                    ? data.fast_elem_extract (row + col * data.rows ())
                                    : octave_value ();
            data.fast_elem_insert (row + col * data.rows (),
                                   attempt_type_conversion (edit_data, old_data));

            // Inform the QTableWidget of our change
            updateData (row,
                        col,
                        data.fast_elem_extract (row + col * data.rows ()),
                        columnformat (col),
                        columneditable (col));

            m_curData = octave_value (data);
            emit gh_set_event (m_handle, "data", data, false);

            octave_value error = octave_value ("");
            sendCellEditCallback (row,
                                  col,
                                  old_data,
                                  data.fast_elem_extract (row + col * data.rows ()),
                                  edit_data,
                                  error);
            ok = true;
          }
      }
    else
      {
        // Reset the QTableWidgetItem
        updateData (row, col, octave_value (""), columnformat (col),
                    columneditable (col));

        octave_value error =
          octave_value ("Table data is not editable at this location.");
        sendCellEditCallback (row,
                              col,
                              octave_value (),
                              octave_value (),
                              edit_data,
                              error);
      }

    if (! ok)
      {
        comboBox->setCurrentIndex (-1);
        comboBox->setEditable (true);
        comboBox->setEditText (comboBox->property ("original_value").toString ());
        comboBox->lineEdit ()->setReadOnly (true);
      }
    m_blockUpdates = false;
  }

  void
  Table::checkBoxClicked (int row, int col, QCheckBox *checkBox)
  {
    if (m_blockUpdates)
      return;
    m_blockUpdates = true;

    gh_manager& gh_mgr = m_interpreter.get_gh_manager ();

    octave::autolock guard (gh_mgr.graphics_lock ());

    bool new_value = ! checkBox->isChecked ();

    octave_value data = octave_value (m_curData);
    if (data.islogical ())
      {
        // EASY WE JUST CONVERT
        boolMatrix matrix = data.bool_matrix_value ();
        if (row < matrix.rows () && col < matrix.columns ())
          {
            bool old_value = matrix(row, col);
            matrix(row, col) = new_value;
            checkBox->setChecked (new_value);
            if (new_value != old_value)
              {
                m_curData = octave_value (matrix);
                emit gh_set_event (m_handle, "data", octave_value (matrix),
                                   false);
              }

            sendCellEditCallback (row, col,
                                  octave_value (old_value),
                                  octave_value (new_value),
                                  octave_value (new_value),
                                  octave_value (""));

          }
        else
          {
            sendCellEditCallback (row,
                                  col,
                                  octave_value (),
                                  octave_value (),
                                  octave_value (new_value),
                                  octave_value ("Table data is not editable at this location."));
          }
      }
    else if (data.iscell ())
      {
        Cell cell = data.cell_value ();
        if (row < cell.rows () && col < cell.columns ())
          {
            if (cell(row, col).islogical ())
              {
                bool old_value = cell(row, col).bool_value ();
                cell(row, col) = octave_value (new_value);
                checkBox->setChecked (new_value);
                if (new_value != old_value)
                  {
                    m_curData = octave_value (cell);
                    emit gh_set_event (m_handle, "data", octave_value (cell),
                                       false);
                  }

                sendCellEditCallback (row,
                                      col,
                                      octave_value (old_value),
                                      octave_value (new_value),
                                      octave_value (new_value),
                                      octave_value (""));
              }
            else
              {
                sendCellEditCallback (row,
                                      col,
                                      cell(row, col),
                                      octave_value (),
                                      octave_value (new_value),
                                      octave_value ("Cannot convert logical edit to other type."));
              }
          }
        else
          {
            sendCellEditCallback (row,
                                  col,
                                  cell(row, col),
                                  octave_value (),
                                  octave_value (new_value),
                                  octave_value ("Table data is not editable at this location."));
          }
      }
    else if (data.is_matrix_type ())
      {
        if (row < data.rows () && col < data.columns ())
          {
            sendCellEditCallback (row,
                                  col,
                                  data.fast_elem_extract (row + col * data.rows ()),
                                  octave_value (),
                                  octave_value (new_value),
                                  octave_value ("Cannot convert logical edit to other type."));
          }
        else
          {
            sendCellEditCallback (row,
                                  col,
                                  data.fast_elem_extract (row + col * data.rows ()),
                                  octave_value (),
                                  octave_value (new_value),
                                  octave_value ("Table data is not editable at this location."));
          }
      }
    m_blockUpdates = false;
  }


  void
  Table::itemChanged (QTableWidgetItem *item)
  {
    if (m_blockUpdates)
      return;
    m_blockUpdates = true;

    gh_manager& gh_mgr = m_interpreter.get_gh_manager ();

    octave::autolock guard (gh_mgr.graphics_lock ());

    octave_value data = octave_value (m_curData);

    int row = item->row ();
    int col = item->column ();
    octave_value edit_data = octave_value (Utils::toStdString (item->text ()));
    octave_value new_value;
    octave_value old_value;
    octave_value new_data;

    if (row < data.rows () && col < data.columns ())
      {
        if (data.iscell ())
          {
            old_value = data.cell_value () (row, col);
          }
        else if (data.is_matrix_type ())
          {
            old_value = data.fast_elem_extract (row + col * data.rows ());
          }

        // Now we need to coerce the new_value in to the type of the old_value
        if (old_value.is_string ())
          new_value = edit_data;
        else
          {
            new_value = attempt_type_conversion (edit_data, old_value);
            std::pair<Qt::AlignmentFlag, QString> flag_and_text =
              qStringValueFor (new_value, columnformat (col));
            item->setTextAlignment (flag_and_text.first);
            item->setText (flag_and_text.second);
          }

        if (data.iscell ())
          {
            Cell cell = data.cell_value ();
            cell(row, col) = new_value;
            new_data = octave_value (cell);
          }
        else
          {
            data.fast_elem_insert (row + col * data.rows (), new_value);
            new_data = data;
          }
        m_curData = octave_value (new_data);
        emit gh_set_event (m_handle, "data", new_data, false);

        sendCellEditCallback (row,
                              col,
                              octave_value (old_value),
                              octave_value (new_value),
                              octave_value (new_value),
                              octave_value (""));
      }
    else
      {
        item->setText ("");

        octave_value error =
          octave_value ("Table data is not editable at this location.");
        sendCellEditCallback (row,
                              col,
                              octave_value (),
                              octave_value (),
                              edit_data,
                              error);
      }

    m_blockUpdates = false;
  }

  void
  Table::redraw (void)
  {
    update (uitable::properties::ID_POSITION);
  }

  void
  Table::update (int pId)
  {
    uitable::properties& tp = properties<uitable> ();

    switch (pId)
      {
      case uitable::properties::ID_BACKGROUNDCOLOR:
      case uitable::properties::ID_FOREGROUNDCOLOR:
        updatePalette ();
        break;

      case uitable::properties::ID_COLUMNNAME:
        updateColumnname ();
        updateColumnwidth ();
        break;

      case uitable::properties::ID_COLUMNWIDTH:
        updateColumnwidth ();
        break;

      case uitable::properties::ID_COLUMNEDITABLE:
      case uitable::properties::ID_COLUMNFORMAT:
      case uitable::properties::ID_DATA:
        m_blockUpdates = true;
        m_curData = octave_value (tp.get_data ());
        updateData ();
        updateRowname ();
        updateColumnname ();
        updateColumnwidth ();
        updateEnable ();
        m_blockUpdates = false;
        break;

      case uitable::properties::ID_ENABLE:
        updateEnable ();
        break;

      case uitable::properties::ID_KEYPRESSFCN:
        m_keyPressHandlerDefined = ! tp.get_keypressfcn ().isempty ();
        break;

      case uitable::properties::ID_KEYRELEASEFCN:
        m_keyReleaseHandlerDefined = ! tp.get_keyreleasefcn ().isempty ();
        break;

      case uitable::properties::ID_FONTNAME:
      case uitable::properties::ID_FONTSIZE:
      case uitable::properties::ID_FONTWEIGHT:
      case uitable::properties::ID_FONTANGLE:
        if (m_tableWidget)
          {
            m_tableWidget->setFont (Utils::computeFont<uitable> (tp));
            for (int row = 0; row < m_tableWidget->rowCount (); row++)
              {
                m_tableWidget->setRowHeight (row, AUTO_HEIGHT);
              }
          }
        break;

      case uitable::properties::ID_POSITION:
        {
          Matrix bb = tp.get_boundingbox (false);
          m_tableWidget->setGeometry (octave::math::round (bb(0)),
                                      octave::math::round (bb(1)),
                                      octave::math::round (bb(2)),
                                      octave::math::round (bb(3)));
          updateExtent ();
        }
        break;

      case uitable::properties::ID_REARRANGEABLECOLUMNS:
        updateRearrangeableColumns ();
        break;

      case uitable::properties::ID_ROWNAME:
        updateRowname ();
        break;

      case uitable::properties::ID_ROWSTRIPING:
        updatePalette ();
        break;

      case uitable::properties::ID_TOOLTIPSTRING:
        m_tableWidget->setToolTip (Utils::fromStdString (tp.get_tooltipstring ()));
        break;

      case base_properties::ID_VISIBLE:
        m_tableWidget->setVisible (tp.is_visible ());
        break;

      default:
        break;

      }
  }

  void
  Table::updateColumnname (void)
  {
    uitable::properties& tp = properties<uitable> ();

    // Reset the Column Count
    m_tableWidget->setColumnCount (tp.get_data ().columns ());

    octave_value columnname = tp.get_columnname ();
    QStringList l;
    bool visible = true;

    if (columnname.is_string () && columnname.string_value (false) == "numbered")
      for (int i = 0; i < m_tableWidget->columnCount (); i++)
        l << QString::number (i + 1);
    else if (columnname.is_string ())
      {
        if (m_tableWidget->columnCount () > 0)
          l << Utils::fromStdString (columnname.string_value ());
        for (int i = 1; i < m_tableWidget->columnCount (); i++)
          l << "";
      }
    else if (columnname.isempty ())
      {
        for (int i = 0; i < m_tableWidget->columnCount (); i++)
          l << "";

        visible = false;
      }
    else if (columnname.iscell ())
      {
        octave_idx_type n = columnname.numel ();
        Cell cell_value = columnname.cell_value ();

        for (octave_idx_type i = 0; i < n; i++)
          {
            octave_value v = cell_value (i);
            if (v.is_string ())
              l << Utils::fromStdString (v.string_value (true));
            else if (v.is_matrix_type ())
              {
                Matrix data = v.matrix_value ();

                /* Now Matlab does something very strange here:
                 * If data is a row or column matrix,
                 * then each datapoint is added.
                 * Otherwise, nothing is set.
                 */
                if (data.rows () > 1 && data.cols () > 1)
                  l << "";
                else
                  for (octave_idx_type j = 0; j < data.numel (); j++)
                    l << QString::number (data(j));
              }
            else if (v.isnumeric ())
              l << QString::number (v.double_value ());
            else
              l << QString::number (v.double_value ());
          }
      }
    else if (columnname.is_matrix_type ())
      {
        octave_idx_type n = columnname.numel ();
        Matrix matrix_value = columnname.matrix_value ();

        for (octave_idx_type i = 0; i < n; i++)
          l << QString::number (matrix_value(i));
      }
    else
      {
        for (int i = 0; i < m_tableWidget->columnCount (); i++)
          l << "";
        visible = false;
      }

    l.replaceInStrings ("|", "\n");

    // Now add the columns as required
    if (m_tableWidget->columnCount () < l.length ())
      {
        int oldColumnCount = m_tableWidget->columnCount ();
        m_tableWidget->setColumnCount (l.length ());
        for (int col = oldColumnCount; col < l.length (); col++)
          {
            std::string format = columnformat (col);
            bool enabled = columneditable (col);

            for (int row = 0; row < m_tableWidget->rowCount (); row++)
              updateData (row, col, octave_value (""), format, enabled);
          }
      }

    m_tableWidget->setHorizontalHeaderLabels (l);
    m_tableWidget->horizontalHeader ()->setVisible (visible);
  }

  void
  Table::updateColumnwidth (void)
  {
    uitable::properties& tp = properties<uitable> ();

    octave_value columnwidth = tp.get_columnwidth ();
    if (columnwidth.isempty ()
        || (columnwidth.is_string ()
            && columnwidth.string_value (false) == "auto"))
      for (int i = 0; i < m_tableWidget->columnCount (); i++)
        m_tableWidget->setColumnWidth (i, AUTO_WIDTH);
    else if (columnwidth.is_string ()
             && columnwidth.string_value (false) == "preferred")
      for (int i = 0; i < m_tableWidget->columnCount (); i++)
        {
          int column_size =
            (qobject_cast<QAbstractItemView *> (m_tableWidget))->sizeHintForColumn (i);
          int header_size = m_tableWidget->horizontalHeader ()->sectionSizeHint (i);

          if (column_size > header_size)
            header_size = column_size;
          m_tableWidget->setColumnWidth (i, header_size);
        }
    else if (columnwidth.iscell ())
      {
        Cell cell_value = columnwidth.cell_value ();
        int i = 0;
        for (; i < m_tableWidget->columnCount () && i < cell_value.numel (); i++)
          {
            octave_value v = cell_value (i);
            if (v.is_string ()  && v.string_value (false) == "auto")
              m_tableWidget->setColumnWidth (i, AUTO_WIDTH);
            else if (v.is_string () && v.string_value (false) == "preferred")
              {
                int column_size =
                  (qobject_cast<QAbstractItemView *> (m_tableWidget))->sizeHintForColumn (i);
                int header_size = m_tableWidget->horizontalHeader ()->sectionSizeHint (i);

                if (column_size > header_size)
                  header_size = column_size;
                m_tableWidget->setColumnWidth (i, header_size);
              }
            else
              {
                int w = int (v.double_value ());
                m_tableWidget->setColumnWidth (i, w);
              }
          }
        for (; i < m_tableWidget->columnCount (); i++)
          {
            int column_size =
              (qobject_cast<QAbstractItemView *> (m_tableWidget))->sizeHintForColumn (i);
            int header_size = m_tableWidget->horizontalHeader ()->sectionSizeHint (i);

            if (column_size > header_size)
              header_size = column_size;
            m_tableWidget->setColumnWidth (i, header_size);
          }
      }
    else if (columnwidth.is_matrix_type ())
      {
        Matrix matrix_value = columnwidth.matrix_value ();
        int i = 0;
        for (; i < m_tableWidget->columnCount () && i < matrix_value.numel (); i++)
          {
            octave_value v = matrix_value(i);
            int w = int (v.double_value ());
            m_tableWidget->setColumnWidth (i, w);
          }
        for (; i < m_tableWidget->columnCount (); i++)
          m_tableWidget->setColumnWidth (i, AUTO_WIDTH);
      }
  }

  bool inline
  Table::columneditable (int col)
  {
    uitable::properties& tp = properties<uitable> ();
    boolNDArray columneditable = tp.get_columneditable ().bool_array_value ();
    bool editable = false;

    if (! columneditable.isempty () && col < columneditable.numel ())
      editable = columneditable.xelem (col);
    else if (! columneditable.isempty () && columneditable.numel () == 1)
      editable = columneditable.xelem (0);

    return editable;
  }

  std::string inline
  Table::columnformat (int col)
  {
    uitable::properties& tp = properties<uitable> ();
    std::string format = "";
    octave_value ov_columnformat = tp.get_columnformat ();

    if (ov_columnformat.iscell ())
      {
        Cell columnformat = ov_columnformat.cell_value ();
        if (! columnformat.isempty () && col < columnformat.numel ())
          {
            octave_value format_value = columnformat.xelem (col);

            if (! format_value.isempty () && format_value.is_string ())
              format = format_value.string_value ();
            else if (! format_value.isempty () && format_value.iscell ())
              format = "popup";
          }
      }
    else if (ov_columnformat.is_string ())
      {
        format = ov_columnformat.string_value ();
      }
    return format;
  }

  void inline
  Table::updateDataColumn (int col)
  {
    octave_value data = properties<uitable> ().get_data ();

    std::string format = columnformat (col);
    bool is_editable = columneditable (col);

    for (octave_idx_type row = 0; row < data.rows (); row++)
      updateData (row,
                  col,
                  data.iscell ()
                  ? data.cell_value () (row, col)
                  : data.fast_elem_extract (row + col * data.rows ()),
                  format,
                  is_editable);
  }

  void inline
  Table::updateData (int row, int col)
  {
    octave_value data = properties<uitable> ().get_data ();
    updateData (row,
                col,
                data.iscell ()
                ? data.cell_value () (row, col)
                : data.fast_elem_extract (row + col * data.rows ()),
                columnformat (col),
                columneditable (col));
  }

  void inline
  Table::updateData (int row, int col, octave_value value,
                     std::string format = "", bool enabled = false)
  {
    if (format == "logical" || (format == "" && value.islogical ()))
      {
        if (m_tableWidget->item (row, col))
          delete m_tableWidget->item (row, col);

        m_tableWidget->setCellWidget (row, col, checkBoxForLogical (value, enabled));
        m_tableWidget->cellWidget (row, col)->setProperty ("row", QVariant (row));
        m_tableWidget->cellWidget (row, col)->setProperty ("col", QVariant (col));
      }
    else if (format == "popup" && enabled)
      {
        if (m_tableWidget->item (row, col))
          delete m_tableWidget->item (row, col);

        QString string_value = qStringValueFor (value, format).second;
        uitable::properties& tp = properties<uitable> ();
        octave_value format_value = tp.get_columnformat ().cell_value ().xelem (col);

        QComboBox *comboBox = new QComboBox ();
        comboBox->setProperty ("row", QVariant (row));
        comboBox->setProperty ("col", QVariant (col));

        int index = -1;
        for (int k = 0; k < format_value.numel (); k++)
          {
            QString popup_item
              = Utils::fromStdString (format_value.fast_elem_extract (k).string_value ());

            comboBox->addItem (popup_item);

            if (popup_item == string_value)
              index = k;
          }
        comboBox->setCurrentIndex (index);

        if (index < 0)
          {
            comboBox->setEditable (true);
            comboBox->setEditText (string_value);
            comboBox->lineEdit ()->setReadOnly (true);
          }

        comboBox->setProperty ("original_value", QVariant (string_value));

        comboBox->installEventFilter (this);
        m_tableWidget->setCellWidget (row, col, comboBox);
        connect (comboBox, SIGNAL(currentIndexChanged (const QString&)),
                 this, SLOT(comboBoxCurrentIndexChanged (const QString&)));
      }
    else
      {
        if (m_tableWidget->cellWidget (row, col))
          delete m_tableWidget->cellWidget (row, col);
        m_tableWidget->setItem (row, col, itemFor (value, format, enabled));
      }
  }

  void
  Table::updateData ()
  {
    uitable::properties& tp = properties<uitable> ();

    octave_value data = tp.get_data ();

    if (data.iscell () || data.is_matrix_type ())
      {
        m_tableWidget->setRowCount (data.rows ());
        m_tableWidget->setColumnCount (data.columns ());

        for (octave_idx_type col = 0; col < data.columns (); col++)
          updateDataColumn (col);
      }

    for (octave_idx_type row = 0; row < m_tableWidget->rowCount (); row++)
      m_tableWidget->setRowHeight (row, AUTO_HEIGHT);
  }

  void
  Table::updateEnable (void)
  {
    uitable::properties& tp = properties<uitable> ();
    bool enabled = tp.is_enable ();
    m_tableWidget->setEnabled (enabled);

    bool rearrangeableColumns = tp.is_rearrangeablecolumns ();

    // Set selection mode
    m_tableWidget->setSelectionMode (enabled
                                     ? QAbstractItemView::ExtendedSelection
                                     : QAbstractItemView::NoSelection);

    // Set rearrangeablecolumns
    m_tableWidget->horizontalHeader ()->setSectionsMovable (enabled && rearrangeableColumns);
    m_tableWidget->horizontalHeader ()->setDragEnabled (enabled && rearrangeableColumns);
    m_tableWidget->horizontalHeader ()->setDragDropMode (QAbstractItemView::InternalMove);

    // Turn off column editable
    for (int col = 0; col < m_tableWidget->columnCount (); col++)
      {
        bool editable = columneditable (col);

        for (int row = 0; row < m_tableWidget->rowCount (); row++)
          if (QTableWidgetItem *item = m_tableWidget->item (row, col))
            {
              Qt::ItemFlags flags = item->flags ();
              if (enabled && editable)
                item->setFlags (flags | Qt::ItemIsEditable);
              else
                item->setFlags (flags & ~Qt::ItemIsEditable);
            }
          else if (QWidget *widget = m_tableWidget->cellWidget (row, col))
            {
              QCheckBox *checkBox = nullptr;
              if (widget && ! widget->children ().isEmpty ())
                {
                  QHBoxLayout *layout
                    = qobject_cast<QHBoxLayout *> (widget->children ().first ());

                  if (layout && layout->count () > 0)
                    checkBox = qobject_cast<QCheckBox *> (layout->itemAt (0)-> widget ());
                }

              if (checkBox)
                widget->setProperty ("Enabled", QVariant (enabled & editable));
              else
                {
                  widget->setAttribute (Qt::WA_TransparentForMouseEvents,
                                        !(editable & enabled));

                  widget->setFocusPolicy (Qt::NoFocus);
                }
            }
      }
  }

  void
  Table::updateExtent (void)
  {
    QSize s = realQSizeForTable (m_tableWidget);
    Matrix extent = Matrix (1, 4);
    extent(0, 0) = 0;
    extent(0, 1) = 0;
    extent(0, 2) = s.width ();
    extent(0, 3) = s.height () ;
    graphics_object go = object ();
    emit gh_set_event (go.get_handle (), "extent", extent, false);
  }

  void
  Table::updatePalette (void)
  {
    uitable::properties& tp = properties<uitable> ();

    QPalette p = m_tableWidget->palette ();
    p.setColor (QPalette::Text,
                Utils::fromRgb (tp.get_foregroundcolor_rgb ()));
    p.setColor (QPalette::Base,
                Utils::fromRgb (tp.get_backgroundcolor_rgb ()));
    p.setColor (QPalette::AlternateBase,
                Utils::fromRgb (tp.get_alternatebackgroundcolor_rgb ()));
    m_tableWidget->setPalette (p);
    m_tableWidget->setAlternatingRowColors (tp.is_rowstriping ());
    // FIXME: Handle multiple alternating background colors
  }

  void
  Table::updateRowname (void)
  {
    uitable::properties& tp = properties<uitable> ();

    // Reset the row count
    m_tableWidget->setRowCount (tp.get_data ().rows ());

    octave_value rowname = tp.get_rowname ();
    QStringList l;
    bool visible = true;

    if (rowname.is_string () && rowname.string_value (false) == "numbered")
      for (int i = 0; i < m_tableWidget->rowCount (); i++)
        l << QString::number (i + 1);
    else if (rowname.is_string ())
      {
        if (m_tableWidget->rowCount () > 0)
          l << Utils::fromStdString (rowname.string_value ());
        for (int i = 1; i < m_tableWidget->rowCount (); i++)
          l << "";
      }
    else if (rowname.isempty ())
      {
        for (int i = 0; i < m_tableWidget->rowCount (); i++)
          l << "";
        visible = false;
      }
    else if (rowname.iscell ())
      {
        octave_idx_type n = rowname.numel ();
        Cell cell_value = rowname.cell_value ();

        for (octave_idx_type i = 0; i < n; i++)
          {
            octave_value v = cell_value (i);
            if (v.is_string ())
              l << Utils::fromStdString (v.string_value (true));
            else if (v.is_matrix_type ())
              {
                Matrix data = v.matrix_value ();

                /* Now Matlab does something very strange here:
                 * If data is a row or column matrix,
                 * then each datapoint is added.
                 * Otherwise, nothing is set.
                 */
                if (data.rows () > 1 && data.cols () > 1)
                  l << "";
                else
                  for (octave_idx_type j = 0; j < data.numel (); j++)
                    l << QString::number (data(j));
              }
            else if (v.isnumeric ())
              l << QString::number (v.double_value (true));
            else
              l << QString::number (v.double_value (true));
          }
      }
    else if (rowname.is_matrix_type ())
      {
        octave_idx_type n = rowname.numel ();
        Matrix matrix_value = rowname.matrix_value ();

        for (octave_idx_type i = 0; i < n; i++)
          l << QString::number (matrix_value(i));
      }
    else
      {
        for (int i = 0; i < m_tableWidget->columnCount (); i++)
          l << "";
        visible = false;
      }

    // Add dummy rows as required
    if (m_tableWidget->rowCount () < l.length ())
      {
        int oldRowCount = m_tableWidget->rowCount ();
        m_tableWidget->setRowCount (l.length ());

        for (int col = 0; col < m_tableWidget->columnCount (); col++)
          {
            std::string format = columnformat (col);
            bool enabled = columneditable (col);

            for (int row = oldRowCount; row < l.length (); row++)
              {
                m_tableWidget->setRowHeight (row, AUTO_HEIGHT);

                updateData (row, col, octave_value (""), format, enabled);
              }
          }
      }

    m_tableWidget->setVerticalHeaderLabels (l);
    m_tableWidget->verticalHeader ()->setVisible (visible);
  }

  void
  Table::updateRearrangeableColumns (void)
  {
    uitable::properties& tp = properties<uitable> ();

    bool rearrangeableColumns = tp.is_rearrangeablecolumns ();
    bool enabled = tp.is_enable ();

    m_tableWidget->horizontalHeader ()->setSectionsMovable (enabled && rearrangeableColumns);
    m_tableWidget->horizontalHeader ()->setDragEnabled (enabled && rearrangeableColumns);
    m_tableWidget->horizontalHeader ()->setDragDropMode (QAbstractItemView::InternalMove);
  }

  bool
  Table::eventFilter (QObject *watched, QEvent *xevent)
  {
    gh_manager& gh_mgr = m_interpreter.get_gh_manager ();

    //uitable::properties& tp = properties<uitable> ();
    if (qobject_cast<QTableWidget *> (watched))
      {
        switch (xevent->type ())
          {
          case QEvent::Resize:
            {
              octave::autolock guard (gh_mgr.graphics_lock ());

              graphics_object go = object ();
              if (go.valid_object ())
                {
                  const uitable::properties& tp =
                    Utils::properties<uitable> (go);
                  if (tp.fontunits_is ("normalized"))
                    m_tableWidget->setFont (Utils::computeFont<uitable> (tp));
                }
            }
            break;

          case QEvent::MouseButtonPress:
            {
              octave::autolock guard (gh_mgr.graphics_lock ());

              QMouseEvent *m = dynamic_cast<QMouseEvent *> (xevent);
              graphics_object go = object ();
              const uitable::properties& tp =
                Utils::properties<uitable> (go);
              graphics_object fig = go.get_ancestor ("figure");

              if (m->button () != Qt::LeftButton || ! tp.is_enable ())
                {
                  emit gh_set_event (fig.get_handle (), "selectiontype",
                                     Utils::figureSelectionType (m), false);
                  emit gh_set_event (fig.get_handle (), "currentpoint",
                                     Utils::figureCurrentPoint (fig, m),
                                     false);
                  emit gh_callback_event (fig.get_handle (),
                                          "windowbuttondownfcn");
                  emit gh_callback_event (m_handle, "buttondownfcn");

                  if (m->button () == Qt::RightButton)
                    ContextMenu::executeAt (m_interpreter, properties (),
                                            m->globalPos ());
                }
              else
                {
                  emit gh_set_event (fig.get_handle (), "selectiontype",
                                     octave_value ("normal"), false);
                }
            }
            break;

          case QEvent::KeyPress:
            {
              QKeyEvent *k = dynamic_cast<QKeyEvent *> (xevent);
              if (m_keyPressHandlerDefined)
                {
                  octave::autolock guard (gh_mgr.graphics_lock ());

                  octave_scalar_map keyData = Utils::makeKeyEventStruct (k);
                  graphics_object fig = object ().get_ancestor ("figure");

                  emit gh_set_event (fig.get_handle (), "currentcharacter",
                                     keyData.getfield ("Character"), false);
                  emit gh_callback_event (m_handle, "keypressfcn", keyData);
                }
              int row = m_tableWidget->currentRow ();
              int col = m_tableWidget->currentColumn ();
              switch (k->key ())
                {
                case Qt::Key_Space:
                  {
                    QCheckBox *checkBox = nullptr;

                    QWidget *widget
                      = qobject_cast<QWidget *> (m_tableWidget->cellWidget (row, col));

                    if (widget && ! widget->children ().isEmpty ())
                      {
                        QHBoxLayout *layout
                          = qobject_cast<QHBoxLayout *> (widget->children ().first ());

                        if (layout && layout->count () > 0)
                          checkBox = qobject_cast<QCheckBox *> (layout->itemAt (0)-> widget ());
                      }

                    if (checkBox && checkBox->property ("Enabled").toBool ())
                      checkBoxClicked (row, col, checkBox);

                    QComboBox *comboBox
                      = qobject_cast<QComboBox *> (m_tableWidget->cellWidget (row, col));

                    if (comboBox)
                      comboBox->showPopup ();
                  }
                  break;

                case Qt::Key_Return:
                case Qt::Key_Enter:
                  {
                    if (k->modifiers () == Qt::NoModifier)
                      {
                        if (row + 1 < m_tableWidget->rowCount ())
                          m_tableWidget->setCurrentCell (row + 1, col);
                        else
                          {
                            if (col + 1 < m_tableWidget->columnCount ())
                              m_tableWidget->setCurrentCell (0, col + 1);
                            else
                              m_tableWidget->setCurrentCell (0, 0);
                          }
                      }
                    else if (k->modifiers () == Qt::ShiftModifier)
                      {
                        if (row - 1 >= 0)
                          m_tableWidget->setCurrentCell (row - 1, col);
                        else
                          {
                            if (col - 1 >= 0)
                              m_tableWidget->setCurrentCell
                              (m_tableWidget->rowCount () - 1,
                               col - 1);
                            else
                              m_tableWidget->setCurrentCell
                              (m_tableWidget->rowCount () - 1,
                               m_tableWidget->columnCount () - 1);
                          }
                      }
                  }
                  break;

                default:
                  break;
                }
            }
            break;

          case QEvent::KeyRelease:
            {
              if (m_keyReleaseHandlerDefined)
                {
                  octave::autolock guard (gh_mgr.graphics_lock ());

                  QKeyEvent *k = dynamic_cast<QKeyEvent *> (xevent);

                  octave_scalar_map keyData = Utils::makeKeyEventStruct (k);
                  graphics_object fig = object ().get_ancestor ("figure");

                  emit gh_set_event (fig.get_handle (), "currentcharacter",
                                     keyData.getfield ("Character"), false);
                  emit gh_callback_event (m_handle, "keyreleasefcn", keyData);
                }
            }
            break;

          default:
            break;
          }
      }
    else if (qobject_cast<QComboBox *> (watched))
      {
        switch (xevent->type ())
          {
          case QEvent::MouseButtonPress:
            {
              octave::autolock guard (gh_mgr.graphics_lock ());

              QMouseEvent *m = dynamic_cast<QMouseEvent *> (xevent);
              graphics_object go = object ();
              const uitable::properties& tp = Utils::properties<uitable> (go);
              graphics_object fig = go.get_ancestor ("figure");

              if (m->button () != Qt::LeftButton || ! tp.is_enable ())
                {
                  emit gh_set_event (fig.get_handle (), "selectiontype",
                                     Utils::figureSelectionType (m), false);
                  emit gh_set_event (fig.get_handle (), "currentpoint",
                                     Utils::figureCurrentPoint (fig, m),
                                     false);
                  emit gh_callback_event (fig.get_handle (),
                                          "windowbuttondownfcn");
                  emit gh_callback_event (m_handle, "buttondownfcn");

                  if (m->button () == Qt::RightButton)
                    ContextMenu::executeAt (m_interpreter, tp, m->globalPos ());
                }
              else
                {
                  emit gh_set_event (fig.get_handle (), "selectiontype",
                                     Utils::figureSelectionType (m), false);

                  QComboBox *comboBox_0 = qobject_cast<QComboBox *> (watched);
                  for (int row = 0; row < m_tableWidget->rowCount (); row++)
                    {
                      for (int col = 0; col < m_tableWidget->columnCount (); col++)
                        {
                          QComboBox *comboBox_1
                            = qobject_cast<QComboBox *> (m_tableWidget->cellWidget (row, col));

                          if (comboBox_0 == comboBox_1)
                            m_tableWidget->setCurrentCell (row, col);
                        }
                    }
                }
            }
            break;

          default:
            break;
          }
      }
    return false;
  }

#undef AUTO_HEIGHT
}
